共查询到17条相似文献,搜索用时 465 毫秒
1.
《中国地理与资源文摘》2003,(3)
P931.3 2003032056海岸现代风成砂粒度参数特征的研究:以中国温带海岸为例二Charaereristies of grains,ze parameters of modern eoasralaeolsan SandS in temperate coastal:egion in China/董玉祥//沉积学报.一2002,20(4)一656一662 以我国温带海岸为研究区域,利用136个现代海岸风成砂样数据,通过粒度组成、平均粒径、标准偏差和偏差、峰态等粒度参数分析了其粒度特征.结果表明,我国温带海岸的现代风成砂并非过去认为的几乎全由分选很好的细砂组成,是以正偏为主,粒度参数的地域差异明显,并随沙丘类型、规模及距海岸线的远近不同等而变… 相似文献
2.
波浪海滩沙丘相互作用模式研究述评 总被引:4,自引:2,他引:2
波浪-海滩-沙丘相互作用模式是对海岸沙丘形成与演化机理的宏观解析,是了解和认识海岸沙丘形态、类型与规模等的区域差异的基本途径,与海岸沙丘表面风沙流过程研究一样是研究海岸风沙问题不可或缺的重要方面。在对20世纪80年代以来国内外关于波浪-海滩-沙丘间相互作用模式研究历程回顾的基础上,重点总结和概述了国外所提出的波浪-海滩-沙丘间相互作用模式,包括小尺度的波浪-海滩-沙丘相互作用模式、中尺度的波浪-海滩-沙丘相互作用模式等,并展望了未来我国波浪-海滩-沙丘相互作用模式研究的基本方向与主要内容。 相似文献
3.
海南岛东北部海岸沙丘的沉积构造特征及其发育模式 总被引:19,自引:1,他引:19
海岸沙丘沉积构造中既有大型交错层理,也具某些区别于内陆沙丘构造的特征,如厚层顶积层的保存及变形层理的普遍存在。 本区海岸沙丘形成于东北季风,沙源来自海滩砂。从海滩后滨向陆地的沙丘类型依次是海岸前丘、横向沙丘和新月形沙丘、抛物线沙丘、纵向沙丘、海岸沙席。其中海岸前丘和沙席为海岸沙丘区别于内陆沙丘的特有类型。本区海岸沙丘的发育开始于3000年前。 相似文献
4.
我国内陆沙漠与海岸沙丘石英颗粒表面结构的对比研究 总被引:6,自引:3,他引:6
本文通过扫描电镜分析,对我国内陆沙漠与海岸抄丘石英颗粒表面结构进行了对比研究。研究认为,无论是内陆沙漠砂或海岸沙丘砂,其石英颗粒都具有较好的磨圆度,表面有碟形坑、麻坑及SiO_2沉淀物等代表风成环境的典型特征;此外,还叠加有代表原生沙物质来源于水下环境的V型撞击坑、撞击沟等痕迹。然而,受环境尤其是气候影响,其表面结构特征仍有差异,表现在内陆干旱区大陆性气候的沙漠砂的风成机械作用和化学沉淀作用,都要比沿海湿润季风性气候的海岸沙丘砂强烈;但海岸沙丘砂的化学溶蚀作用却比内陆沙漠砂要明显。同属海岸抄丘环境,其石英颗粒表面结构特征表现为北方温带海岸沙丘砂的机械作用痕迹强;而南方热带海岸沙丘砂的化学作用痕迹发育,但机械作用痕迹并非少见,仍然十分明显。 相似文献
5.
海岸沙丘近表层粒度对台风的响应 总被引:4,自引:3,他引:1
根据“麦德姆”强台风登陆前后福建平潭岛海岸前丘、爬坡沙丘、横向沙丘和海岸沙席等海岸沙丘近表层的粒度数据,分析了台风登陆前后典型海岸沙丘近表层粒径组成与粒度参数的变化,初步总结了海岸沙丘近表层粒度对台风的响应特征。整体而言,平潭岛海岸沙丘在“麦德姆”登陆前后近表层的粒度变化较小,对台风的响应变化不大且基本无等级性的差别,但海岸沙丘不同类型及不同部位的响应程度并不一致,主要是由海岸沙丘沙与海滩沙粒度的相近性及台风过程中大风的非选择性风蚀所致,同时也受到不同类型沙丘的形态和规模等的影响。 相似文献
6.
中国的海岸风沙研究:进展与展望 总被引:5,自引:1,他引:4
较为全面地概括和总结了我国海岸风沙研究的主要进展及其成果,包括我国海岸沙丘的类型、分布、成因与发育模式,海岸现代风沙沉积与古风成砂沉积特征,海岸风沙运动观测结果,海岸风沙灾害现状及其防治等。最后,依据海岸风沙研究发展趋势提出了我国海岸风沙研究近期需要特别关注的课题,包括海岸风沙运动的观测与模拟、全球变化与海岸风沙活动关系以及海岸风沙防护研究等。 相似文献
7.
海南岛海岸沙丘岩的特征、成因及其环境意义 总被引:3,自引:2,他引:1
对海南岛海岸沙丘岩的沉积结构与构造进行了实地调查和实验分析。研究表明,海岸沙丘岩的沉积构造和结构特征有别于其他海岸沉积类型,既有风成特征,也有成岩作用特征。海岸沙丘岩的形成需要具备物源、气候和水分3个条件,并经历初始沉积物堆积、初步胶结和溶解—沉淀3个形成阶段。海岸沙丘岩具有一定的环境指示意义,即海岸沙丘岩形成于冰后期的相对高海面时期,能指示风力较弱、沙丘固定和湿热的气候条件。近1 000多年来,研究区的季风风向与现代盛行风风向基本一致。 相似文献
8.
海岸风沙地貌台风响应研究的现状与趋势 总被引:4,自引:1,他引:3
基于台风对海岸风沙地貌影响研究发展的简要回顾,概括了国外近期在海岸沙丘风暴响应的差异性及其机理、风暴响应沉积特征以及新技术应用等方面的主要进展,认为国内适时开展台风对海岸风沙地貌形态与沉积特征影响研究十分必要,建议以华南为研究区域,通过对台风前后不同类型海岸沙丘形态变化的高精度测量、非台风季风沙运动过程的定位观测以及沙丘沉积物的系统采样分析等,研究华南海岸风沙地貌形态和沉积变化与台风间的相互联系,探究台风对华南海岸风沙地貌的作用规律,建立华南海岸风沙地貌的台风响应模式。 相似文献
9.
基于2014年第10号强台风“麦德姆”登陆前后福建平潭岛海岸前丘、爬坡沙丘、横向沙丘和沙席等海岸沙丘形态的高精度测量数据,分析了典型海岸沙丘在台风登陆前后的形态变化,初步总结了华南海岸风沙地貌形态的台风响应模式。结果表明:4类典型海岸沙丘在台风“麦德姆”登陆前后的形态变化较大且主要是以体积减小和沙丘高度降低为主,测点高程的平均变化值为0.22 m,样区海岸沙丘体积平均减小0.59%,测点高程变化的平均值为高度降低0.05 m,但不同类型海岸沙丘及其不同部位的响应变化并非一致且存在较大差异,此与台风“麦德姆”的强侵蚀力及不同海岸沙丘的形态及其下伏地形、表面植被分布等的差异有关。 相似文献
10.
基于2014年第10号强台风"麦德姆"登陆前后福建平潭岛海岸前丘、爬坡沙丘、横向沙丘和沙席等海岸沙丘形态的高精度测量数据,分析了典型海岸沙丘在台风登陆前后的形态变化,初步总结了华南海岸风沙地貌形态的台风响应模式。结果表明:4类典型海岸沙丘在台风"麦德姆"登陆前后的形态变化较大且主要是以体积减小和沙丘高度降低为主,测点高程的平均变化值为0.22 m,样区海岸沙丘体积平均减小0.59%,测点高程变化的平均值为高度降低0.05 m,但不同类型海岸沙丘及其不同部位的响应变化并非一致且存在较大差异,此与台风"麦德姆"的强侵蚀力及不同海岸沙丘的形态及其下伏地形、表面植被分布等的差异有关。 相似文献
11.
Mike Hilton Nick Harvey Andrew Hart Kris James Chris Arbuckle 《The Australian geographer》2006,37(3):313-334
Marram grass (Ammophila arenaria) and sea-wheat grass (Thinopyrum junceiforme) have been introduced to Australia and New Zealand. This study examines the morphology of incipient foredunes and established foredunes associated with these species at two sites, Mason Bay in southern New Zealand, and the Younghusband Peninsula in South Australia. Both species invaded the existing foredunes very rapidly. In both cases the antecedent topography comprised relatively sparsely vegetated, irregular foredunes. Invasion resulted in continuous, regular, evenly vegetated foredunes. At Mason Bay a massive foredune has formed since 1958, in conjunction with Ammophila. Thinopyrum has formed an incipient foredune, with a ramp or terrace morphology, along the Younghusband Peninsula, South Australia. In both cases gaps in the former foredune have been closed and the indigenous foredune vegetation has been displaced. Both species may decrease the frequency and severity of blowout development. They are likely to be resilient to aeolian processes of sedimentation compared with dunes formed by indigenous species. Ammophila survives burial, is tolerant of drought and is resistant to erosion associated with storm surge and high waves. Thinopyrum is very tolerant of salinity. These species may adversely affect the long-term development of coastal barriers by inhibiting transgressive dune development. 相似文献
12.
Controls on coastal dune morphology, shoreline erosion and barrier island response to extreme storms 总被引:2,自引:0,他引:2
The response of a barrier island to an extreme storm depends in part on the surge elevation relative to the height and extent of the foredunes which can exhibit considerable variability alongshore. While it is recognized that alongshore variations in dune height and width direct barrier island response to storm surge, the underlying causes of the alongshore variation remain poorly understood. This study examines the alongshore variation in dune morphology along a 11 km stretch of Santa Rosa Island in northwest Florida and relates the variation in morphology to the response of the island during Hurricane Ivan and historic and storm-related rates of shoreline erosion. The morphology of the foredune and backbarrier dunes was characterized before and after Hurricane Ivan using Empirical Orthogonal Function (EOF) analysis and related through Canonical Correlation Analysis (CCA). The height and extent of the foredune, and the presence and relative location of the backbarrier dunes, varied alongshore at discrete length scales (of ~ 750, 1450 and 4550 m) that are statistically significant at the 95% confidence level. Cospectral analysis suggests that the variation in dune morphology is correlated with transverse ridges on the inner-shelf, the backbarrier cuspate headlands, and the historical and storm-related trends in shoreline change. Sections of the coast with little to no dune development before Hurricane Ivan were observed in the narrowest portions of the island (between headlands), west of the transverse ridges. Overwash penetration tended to be larger in these areas and island breaching was common, leaving the surface close to the watertable and covered by a lag of shell and gravel. In contrast, large foredunes and the backbarrier dunes were observed at the widest sections of the island (the cuspate headlands) and at crest of the transverse ridges. Due to the large dunes and the presence of the backbarrier dunes, these areas experienced less overwash penetration and most of the sediment from the beachface and dunes was deposited within the upper-shoreface. It is argued that this sediment is returned to the beachface through nearshore bar migration following the storm and that the areas with larger foredunes and backbarrier dunes have smaller rates of historical shoreline erosion compared to areas with smaller dunes and greater transfer of sediment to the washover terrace. Since the recovery of the dunes will vary depending on the availability of sediment from the washover and beachface, it is further argued that the alongshore pattern of dune morphology and the response of the island to the next extreme storm is forced by the transverse ridges and island width through alongshore variations in storm surge and overwash gradients respectively. These findings may be particularly important for coastal managers involved in the repair and rebuilding of coastal infrastructure that was damaged or destroyed during Hurricane Ivan. 相似文献
13.
海南岛西海岸沙丘形成动力过程的风洞模拟试验 总被引:3,自引:0,他引:3
The western coast of Hainan Island exhibits a savanna landscape. Many types of sand dunes, including transverse dune ridges, longitudinal dune ridges, elliptical dunes, coppice dunes, and climbing dunes, are widely distributed in the coastal zone. In winter, high-frequency and high-energy NE winds (dominant winds) are prevalent, with a resultant drift direction (RDD) of S35.6°W. In spring, low-frequency and low-energy SW secondary winds prevail, with a RDD of N25.1°E. Wind tunnel simulations revealed that the airflow over the dune surface is the main factor controlling the erosion and deposition patterns of dune surfaces and the morphological development of dunes. In the region’s bidirectional wind en- vironment, with two seasonally distinct energy levels, the airflow over the surface of elliptical dunes, barchan dunes, and transverse dune ridges will exhibit a transverse pattern, whereas the airflow over longitudinal dunes ridges exhibits a lateral pattern and that over climbing dunes exhibits a climbing-circumfluent pattern. These patterns represent different dynamic processes. The coastal dunes on the western coast of Hainan Island are influenced by factors such as onshore winds, sand sources, coastal slopes, rivers, and forest shelter belts. The source of the sand that supplements these dunes particularly influences the development pattern: when there is more sand, the pattern shows positive equilibrium deposition between dune ridges and dunes; otherwise, it shows negative equilibrium deposition. The presence or absence of forest shelter belts also influences deposition and dune development patterns and transformation of dune forms. Coastal dunes and inland desert dunes experience similar dynamic processes, but the former have more diversified shapes and more complex formation mechanisms. 相似文献
14.
The western coast of Hainan Island exhibits a savanna landscape. Many types of sand dunes, including transverse dune ridges, longitudinal dune ridges, elliptical dunes, coppice dunes, and climbing dunes, are widely distributed in the coastal zone. In winter, high-frequency and high-energy NE winds (dominant winds) are prevalent, with a resultant drift direction (RDD) of S35.6°W. In spring, low-frequency and low-energy SW secondary winds prevail, with a RDD of N25.1°E. Wind tunnel simulations revealed that the airflow over the dune surface is the main factor controlling the erosion and deposition patterns of dune surfaces and the morphological development of dunes. In the region's bidirectional wind en-vironment, with two seasonally distinct energy levels, the airflow over the surface of elliptical dunes, barchan dunes, and transverse dune ridges will exhibit a transverse pattern, whereas the airflow over longitudinal dunes ridges exhibits a lateral pattern and that over climbing dunes exhibits a climbing-circumfluent pattern. These patterns represent different dynamic processes. The coastal dunes on the western coast of Hainan Island are influenced by factors such as onshore winds, sand sources, coastal slopes, rivers, and forest shelter belts. The source of the sand that supplements these dunes particularly influences the development pattern: when there is more sand, the pattern shows positive equilibrium deposition between dune ridges and dunes; otherwise, it shows negative equilibrium deposition. The presence or absence of forest shelter belts also influences deposition and dune development patterns and transformation of dune forms. Coastal dunes and inland desert dunes experience similar dynamic processes, but the former have more diversified shapes and more complex forma-tion mechanisms. 相似文献
15.
河北昌黎翡翠岛海岸沙丘移动的初步观测 总被引:3,自引:1,他引:2
采用RTK GPS技术与测量方法,于2006-2008年对中国海岸沙丘主要分布区域之一的河北昌黎黄金海岸翡翠岛的典型海岸新月形沙丘和横向沙脊的移动进行了高精度观测。观测结果表明,翡翠岛海岸沙丘的移动总体呈现出缓慢、向陆、往复式前进的特征,但不同沙丘类型以及沙丘不同部位的移动间存在差异,其中海岸横向沙脊是底部基本稳定下脊顶在夏秋季向海东移、冬春季向陆西移的往复变化中向陆西移,而新月形沙丘则是沙丘的整体陆向位移且移动速度相对较快,主要与风况、沙丘高度与规模及人类活动有关。 相似文献
16.
依据福建平潭岛海岸爬坡沙丘在2016年夏秋季台风“尼伯特”“莫兰蒂”“鲇鱼”组成的台风群登陆前后一年内8次形态高精度测量数据,探究典型海岸爬坡沙丘在台风群登陆后的年内形态变化过程及其特征。结果表明:(1)台风群造成海岸爬坡沙丘体积减少了0.13%、沙丘高度最大降低1.43 m,且不同部位高度变化存在一定差异,特别是后缘因地表植被破坏高度变化最明显。(2)台风群中单个台风作用下海岸爬坡沙丘形态变化虽明显,但未发现存在累积效应。(3)海岸爬坡沙丘形态在台风群后的近一年内以体积增加、沙丘高度增加为主,特别是爬坡沙丘前缘部位有明显的变化规律。(4)海岸爬坡沙丘形态对台风群的响应特征是台风群(强度、数量)、海岸爬坡沙丘原形态、植被盖度、海滩类型及周边环境等因素综合作用的结果,而台风群过后爬坡沙丘形态恢复变化与其形成发育因素相类似,其中海滩沙源和风况是关键性因素。 相似文献
17.
海岸新月形沙丘移动与形态变化的典型研究 总被引:9,自引:1,他引:8
依据2006~2008年连续3 a共9次采用RTK GPS技术与测量方法对一个典型海岸新月形沙丘形态的高精度测量数据,分析了海岸新月形沙丘的移动方向、方式、速度以及形态变化特点。结果表明,海岸新月形沙丘具有缓慢、向陆往复式前进的移动特点,形态变化则具有随季节增减变化中高度、宽度、长度、断面面积与体积增加的加积特征,究其原因是区域风况、海岸地表覆被、沙丘形态及人类活动等共同作用的结果。 相似文献